Flow-driven Orbital motion is also affected by driving and resistive forces and torque.
The origins of such forces do not have to be included in the analysis model--they act on the object in a user-prescribed manner to either accelerate the object or to slow it down.
In several places in this topic, the Direction of Rotation of the object are referenced. These are the directions specified on the Motion task dialog.
To open the Motion Editor:
To Define Flow-Driven Orbital Motion
Note that forces (instead of torques) are used to describe the Orbital motion. This is done because the orbit is really a displacement motion, so force, displacements, and velocities are more applicable than torque, angular displacements, and angular velocities.
The relationship between torque and force for the orbit is expressed in terms of the eccentricity radius (eps):
Variation Methods
The orbital motion element uses forces, and the angular rotation element uses torque. Follow these links for information about the variation methods for Flow-Driven Orbital motion:
Orbital
Initial Angular Velocity: Constant
Rotational
Initial Angular Velocity: Constant